US2598898A - Method for the purification of titanium tetrachloride - Google Patents

Description

Patented June 3, 1952 METHOD FOR THE PURIFICATION OF TITANIUM TETRACHLORIDE Helmut Espenschied, Metuchen, N. J assignor to NationalLead Company, New York, N. Y., a corporation of New Jersey No Drawing. Application February 8, 1951,

Serial No. 210,090-

8 Claims.

This invention relates to a method for the purification of titanium tetrachloride. More specifically it relates to a simple and economical process for purifying the so-called commercial grade or crude titanium tetrachloride.

Crude titanium tetrachloride as manufactured and sold as anarticle of commerce isia. relatively impure product which has a'decide'dly deep, yellow color. This material maybe commercially prepared by processes involving the chlorination of titaniferous ironores or 'rutile ores and invariably theproduct is contaminated by various impurities, Whichuare likewise chlorinated or are carried over with the titanium values.

.The crude titanium tetrachloride isiunsuitable as a raw 'material in variousprocesses,which demand high purity such. as in the manufacture of titanium metal, titanium pigments and other titanium compounds. In these processes the crude titanium tetrachloride must be purified before it can be utilized.

Operational difficulties are usually encountered in prior-methods for the purification of titanium tetrachloride, because of the'type and nature of the treating agents employed. Some of these agents are added in large quantities to the titanium tetrachloride, which in itself .is uneconomical, while agents form bulky and sticky masses which are inconvenient and not easily handled. Another difiiculty' sometimes encountered is in the loss of unrecoverable titanium tetrachloride, which is retained by the bulky residual treating agent. These and other difliculties are overcome by the process of the present invention.

An object of this invention is to present an improved method for the purification of titanium tetrachloride. A further object is to purify crude titanium tetrachloride in a convenient manner. Another object of this invention is to purify titanium tetrachloride by a process which involves minimum handling loss. These and other objects will become apparent from the following more complete description of this invention.

In its broadest aspects this invention contemplates a process for purifying crude titanium tetrachloride by admixing crude titanium tetrachloride with at least one agent selected from a group consisting of iodine and iodide compoundsof sodiumgpotassium, monovalent copsufiicient itime to take efiect, but according to this invention the "only time required is that .of heating the treated liquid to the boiling temperature and during the subsequent distilling'operation to obtain the pure: produce.

' The quantity of the treating agentrequiredis dependent upon. the typeiof starting material. employed. When: large quantities of impurities are present'lin the :"crude titanium tetrachloride,' it is necessary to add larger amounts of :treating agents to obtain a purified produce.

Atypicalexample of the rangeof treating agents necessary :for :the' removal of impurities such as vanadium and silicon from ithe' crude tetrachloride isasfollows:

A sample of crude titanium tetrachloride I containing0.0l5%V.and'0.0l% vSiOz requiredfor purification about'0.02% to about 0.3%preferably about 0.05%-0.2% treating agent calculated on the weight basis of the titanium tetrachloride. Crude tetrachloride usually contains impurities in the order and magnitude given above. 1

In order to more fully illustrate this invention, the following examples are presented:

Example I 1,000 parts of crude titanium tetrachloride having the analysis given above were placed in a distilling flask. 0.3 parts of potassium iodide were added to the titanium tetrachloride at room temperature. The mixture was then rapidly heated to boiling and distilled at normal pressure out of contact with the ouside atmosphere. The distillate was condensed and analyzed. The entire procedure was carried out in glass apparatus to prevent contamination. The purified titanium tetrachloride possessed a water-white color. The analytical data are presented in Table I.

Example II Example I was repeated using another 1,000 parts of the same crude titanium tetrachloride but 2 parts of iodine were added to the liquid instead of potassium iodide. The analytical data are also presented in Table I.

Examples III, IV, V, and VI Example I was repeated except that 2 parts of the following compounds were added to the crude titanium tetrachloride: calcium iodide, magnesium iodide, cuprous iodide, aluminum iodide. tetrachloride is presented in Table I.

The analysis of the purified titanium treating agent is potassium iodide.

From the above examples it is evident that crude titanium tetrachloride may be purified particularly with respect to vanadium. The impurities, particularly vanadium, have been eliminated to the extent that the purified titanium tetrachloride becomes a commercially acceptable product.

It has further been shown that the process of the instant invention is convenient to employ because the treating agents are added in small quantities and therefore do not form bulky and gummy still bottoms.

The titanium tetrachloride removed with the treating agents is easily recovered from the small residual mass by heating and is returned to the system. The ability to heat the treating agents without sticking to the walls of the vessel and without retaining an appreciable amount of titanium tetrachloride in the residual treating agents results in minimizing the titanium tetrachloride handling losses of the process.

While this invention has been described and illustrated by the examples shown, it is not intended to be strictly limited thereto and other modifications and variations may be employed within the scope of the following claims.

4. Method according to claim 1 in which the treating agent is sodium iodide.

5. Method according to claim 1 in which the treating agent is magnesium iodide.

6. Method according to claim 1 in which the treating agent is calcium iodide.

7. Method according to claim 1 in which the amount of treating agent employed is from about 0.02% to about 0.3%, calculated on the weight basis of the titanium tetrachloride.

8. Method according to claim 1 in which the treating agent is employed in amount from about 0.05% to 0.2% calculated on the weight basis of the titanium tetrachloride.

HELMU'I ESPENSCHIED.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 2,416,191 Meister Feb. 18, 1947 2,560,423 Espenschied July 10, 1951 2,560,424 Espenschied July 10, 1951

Claims (1)

1. A METHOD FOR THE PURIFICATION OF TITANIUM TETRACHLORIDE WHICH COMPRISES ADMIXING CRUDE TITANIUM TETRACHLORIDE WITH AT LEAST ONE AGENT SELECTED FROM THE GROUP CONSISTING OF IODINE AND THE IODIDE COMPOUNDS OF SODIUM, POTASSIUM, MONOVALENT COPPER, MAGNESIUM, CALCIUM, AND ALUMINU, HEATING THE MIXTURE TO A BOILING TEMPERATURE AND DISTILLING THE TREATED TITANIUM TETRACHLORIDE TO RECOVER PURIFIED TITANIUM TETRACHLORIDE THEREFROM AS A DISTILLATE.